RU2016108838A - DEVICE AND METHOD OF PROTECTION AGAINST VOLTAGE - Google Patents

Claims (19)

1. An overvoltage protection device comprising: a spark gap containing at least three electrodes, configured to conduct electric current between two electrodes when a certain voltage is reached between two electrodes of at least three electrodes, while at least three electrodes are individually respectively connected in parallel to a ground wire N, grounding wire PE and at least one phase of the power supply L of the AC network. 2. The device according to claim 1, further comprising: at least one fuse connected in series to at least one supply phase L, wherein voltage from at least one of the supply phases L is transmitted to the arrester through at least one fuse. 3. The device according to claim 1, in which at least one of the at least three electrodes is connected to at least one phase of the power L through at least one varistor in the indicated sequence, and the other electrode of at least three electrodes is connected to to the neutral wire N through the second varistor, while the parameter of the first and the parameter of the second varistor are the same. 4. The device according to any one of paragraphs. 1-3, in which the conclusions of the neutral wire N contain at least two end neutral wires N, the conclusions of the grounding wire PE contain at least two end grounding wires PE, the conclusions of each of at least one phase of the power supply L contain at least two end wires of the supply phase L, respectively, with at least two terminal zero wires N, at least two terminal ground wires PE and at least two terminal wires of each of at least one phase of the power supply L form at least two groups output. 5. The device according to claim 4, in which the first output group of at least two output groups contains: high-frequency limiters connected in series to the terminal wires of at least one phase of the power supply L and the terminal zero wire N of the first output group and configured to limit the high-frequency signal in the AC network to produce alternating current at the output. 6. The device according to claim 5, in which the first output group further comprises: a first overvoltage limiter connected in parallel to at least the terminal wire N and the terminal wire L transmitting the alternating current output to the first output group and configured to limit the overvoltage generated in the terminal wire N and the terminal wire L transmitting the alternating current output. 7. The device according to claim 4, in which the second output group of at least two output groups contains: low-frequency limiters connected in series to the end wires of each of at least one wire L and the end wire N of the second output group and configured to limit the low-frequency signal in the AC network to obtain an output signal. 8. The device according to claim 7, in which the second output group further comprises: a second surge suppressor, connected in parallel to at least the end wire N and the end wire L, transmitting the output signal to the second output group, and configured to limit the overvoltage generated in the end wire N and the end wire L transmitting the output signal. 9. A method of surge protection, consisting in the fact that: when a certain voltage is reached between two electrodes of at least three spark gap electrodes, an electric current is conducted between these two electrodes, while the data of at least three electrodes separately are connected in parallel to the neutral wire N, the grounding wire PE and at least one supply phase L AC power. 10. The method of claim 9, further comprising: separation of the AC output and the output signal at the end wires with protection against a spark gap; surge protection separately for AC output and output signal.